Below is the uncorrected machine-read text of this chapter, intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text of each book. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.

ALBERT EINsrrEIN
March 14, 1879 April 18, 1955
BY JOHN ARCHIBALD WHEELER*
ALBERT EINSTEIN was born in Ulm, Germany on March
14, IS79. After education in Germany, Italy, and Swit-
zerIand, and professorships in Bern, Zurich, and Prague, he
was appointee! Director of Kaiser Wilhelm Institute for Phy-
sics in Berlin in 1914. He became a professor in the School of
Mathematics at the Institute for Advanced Study in Princeton
beginning the fall of 1933, became an American citizen in the
summer of 1936, and diect in Princeton, New Jersey on April
IS, 1955. In the Berlin where in 1900 Max Planck discoverer!
the quantum, Einstein fifteen years later explained to us that
gravitation is not something foreign and mysterious acting
through space, but a manifestation of space geometry itself.
He came to understand that the universe does not go on from
everlasting to everlasting, but begins with a big bang. Of all
the questions with which the great thinkers have occupied
themselves in all lands ant! all centuries, none has ever
claimed greater primacy than the origin of the universe, and
no contributions to this issue ever macle by any man anytime
have prover! themselves richer in illuminating power than
those that Einstein macie.
Einstein's 1915 geometrical and still standard theory of
*~)February 15, 1979.
97

98
BIOGRAPHICAL MEMOIRS
gravity provides a prototype unsurpassed even today for
what a physical theory should be and do, but for him it was
only an outlying ridge ir1 the arduous climb to a greater goal
that he never achieved. Scale the greatest Everest that there
is or ever can be, uncover the secret of existence that was
what Einstein struggled for with all the force of his life.
How the mountain peak magnetized his attention he told
us over and over. "Out yonder," he wrote, "lies this huge
world, which exists independently of us human beings and
which stands before us like a great, eternal riddle...." * And
again, "The most incomprehensible thing about the world is
that it is comprehensible."! And yet again, "All of these en-
deavors are based on the belief that existence should have a
completely harmonious structure. Today we have less
ground than ever before for allowing ourselves to be forced
away from this wonderful belief." ::
When the climber laboring toward the Everest peak
comes to the summit of an intermediate ridge, he stops at the
new panorama of beauty for a new fix on the goal of his life
and a new charting of the road ahead; but he knows that he
is at the beginning, not at the end of his travail. What Einstein
did in spacetime physics, in statistical mechanics, and in
quantum physics, he viewed as such intermediate ridges, such
way stations, such panoramic points for planning further
advance, not as achievements in themselves. Those way sta-
tions were not his goals. They were not even preplanned
means to his goal. They were catch-as-catch-can means to his
goal.
Those who know physicists and mountaineers know the
traits they have in common: a "dream-and-drive" spirit, a
* A. Einstein, "Autobiographical Notes," in Einstein: Philosopher-Scientist, ed. P. A.
Schilpp (Evanston, Ill.: Library of Living Philosophers, 1949), p. 4.
tB. Hoffmann, Albert Einstein: Creator and Rebel (New York: Viking, 1972), p. 18.
tA. Einstein, Essays in Science (New York: Philosophical Library, 1934), p. 114.

A LB E R r E I N S rE I N
99
bulldog tenacity of purpose, and an openness to try any route
to the summit. Who does not know Einstein's definition of a
scientist as "an unscrupulous opportunist;" * or his words on
another occasion, "But the years of anxious searching in the
dark, with their intense longing, their alternations of confi-
dence and exhaustion, and the final emergence into the
lightonly those who have experienced it can understand
that." ~ For such a man there are not goals. There is only the
goal, that distant peak.
Who was this climber? How did he come to be bewitched
by the mountain? Where did he learn to climb so well? Who
were his companions? What were some of his adventures?
And how far did he get?
~ first saw and heard Einstein in the fall of 1933, shortly
after he had come to Princeton to take up his long-term
residence there. It was a small, quiet, unpublicized seminar.
Unified field theory was to be the topic, it became clear, when
Einstein entered the room and began to speak. His English,
though a little accented, was beautifully clear and slow. His
delivery was spontaneous and serious, with every now and
then a touch of humor. ~ was not familiar with his subject at
that time, but ~ could sense that he had his doubts about the
particular version of unified field theory he was then discus-
sing. It was clear on this first encounter that Einstein was
following very much his own line, independent of the interest
in nuclear physics then at high tide in the United States.
T here was one extraordinary feature of Einstein the man
~ glimpsed that day, and came to see ever more clearly each
time ~ visited his house, climbed to his upstairs study, and we
explained to each other what we did not understand. Over
*A. Einstein, "Reply to Criticisms," in Einstein: Philosopher-Scientist, ed. P. A.
Schilpp (Evanston, Ill.: Library of Living Philosophers, 1949), p. 648.
t M. I. Klein, Einstein, The Life and Times, R. W. Clark, book review, Science, 174:
1315.

100
BIOGRAPHICAL MEMOIRS
and above his warmth and considerateness, over ant! above
his deep thoughtfulness, ~ came to see, he had a unique sense
of the world of man and nature as one harmonious and
someday understandable whole, with all of us feeling our way
forward through the darkness together.
Our last time together came twenty-one years later, on
April 14, ~ 954, when Einstein kindly accepted an invitation to
speak at my relativity seminar. It was the last talk he ever
gave, almost exactly a year before his cleath. He not only
reviewed how he looker! at general relativity and how he had
come to general relativity, he also spoke as strongly as ever of
his discomfort with the probabilistic features that the
quantum had brought into the clescr~pi~on of nature. "When
a person such as a mouse observes the universe," he asker!
feelingly, "floes that change the state of the universe?"* He
also commented in the course of the seminar that the laws of
physics should be simple. One of us asked, "But what if they
are not simple?" "Then ~ wouIct not be interested! in them,"
he replied.
How Einstein the boy became Einstein the man is a story
toIcl in more than one biography, but nowhere better than in
Einstein's own sketch of his life, so well known as to preclude
repetition here. Who does not remember him in difficulty in
secondary school, antagonized by his teacher's determination
to stuff knowledge clown his throat, and in turn antagonizing
the teacher? Who that takes the fast train from Bern to
Zurich does not fee} a lift of the heart as he flashes through
the little town of Aarau? There, we recall, Einstein was sent
to a special school because he could not get along in the
ordinary school. There, guided by a wise and kind teacher,
* J. A. Wheeler, "Mercer Street and Other Memories," in Albert Einstein, His
Influence on Physics, Philosophy, and Politics, ed. P. C. Aichelburg and R. U. Sexl
(Braunscheig: Vieweg, 1979), p. 202.
tIbid., p. 204.

ALB ERT E I N STEI N
101
he could work with mechanical crevices ant] magnets as well
as books and paper. Einstein was fascinated. He grew. He
succeeded in entering the Zuricher Poiytechnikum. One who
was a rector there not long ago told me that during his period
of rectorship he had taken the record book from Einstein's
year off the shelf. He discovered that Einstein had not been
the bottom student, but next to the bottom student. Ant! how
had he clone in the laboratory? Always behind. He still die!
not hit it off with his teachers, excellent teachers as he himself
said. His professor, Minkowski, later to be one of the warmest
defenders of Einstein's ideas, was nevertheless turned off by
Einstein the stuclent. Einstein frankly said he clislikec! lectures
and examinations. He liked to read. If one thinks of him as
lonesome, one makes a great mistake. He had close col-
leagues. He talker! and walked and walked and talkecI.
To Einstein's development, his few close student col-
leagues meant much; but even more important were the
older colleagues he met in books. Among them were Leibniz
ant! Newton, Hume ant! Kant, Faraday and Helmholtz,
Hertz and Maxwell, Kirchhoff and Mach, Boftzmann and
Planck. Through their influence, he turned from mathe-
matics to physics, from a subject where there are clismayingly
multitudinous directions for dizzy man to choose between, to
a subject where this one and only physical worIc! directs our
endeavors.
Of all heroes, Spinoza was Einstein's greatest. No one
expressed more strongly than he a belief in the harmony, the
beauty, and most of all- the ultimate comprehensibility of
nature. In a letter to his old ant! close friend, Maurice Solo-
vine, Einstein wrote, "l can understand your aversion to the
use of the term 'religion' to describe an emotional and psy-
chological attitude which shows itself most clearly in Spinoza.
[But] ~ have not found a better expression than 'religious' for
the trust in the rational nature of reality that is, at least to a

102
BIOGRAPHICAL MEMOIRS
certain extent, accessible to human reason."* In later years,
Einstein was asker! to do a life on Spinoza. He excused him-
self from writing the biography itself on the ground that it
required "exceptional purity, imagination and modesty,"T
but he did write the introduction. If it is true, as Thomas
Mann tells us, that each one of us models his or her life
consciously or unconsciously on someone who has gone be-
fore, then who was closer to being role-creator for Einstein
than Spinoza?
Search out the simple central principles of this physical
worIc}that was becoming Einstein's goal. But how? Many a
man in the street thinks of Einstein as a man who could only
make headway in his work by dint of pages of complicatecl
mathematics; the truth is the direct opposite. As Hilbert put
it, "Every boy in the streets of our mathematical Gotungen
understands more about four-dimensional geometry than
Einstein. Yet, despite that, Einstein clid the work and not the
mathematicians." ~ Time and again, in the photoelectric
effect, in relativity, in gravitation, the amateur grasped the
simple point that hac! eluded the expert. Where did Einstein
acquire this ability to sift the essential from the non-essential?
The management consultant firm of Booz, Allen &
Hamilton, which does so much today to select leaders of great
enterprises, has a word of advice: What a young man floes
and who he works with in his first job has more effect on his
future than anything else one can easily analyze. What was
Einstein's first job? In the view of many, the position of clerk
in the Swiss patent office was no proper job at all, but it was
the best job available to anyone with his unpromising univer-
sity recorcl. He served in the Bern office for seven years, from
., _ . . . ~
*A. Einstein, Lettres a Maurice Solovine (Paris: Gauthier-Villars, 1956), p. 102
(January 1, 1956).
iB. Hoffmann, Albert Einstein: Creator and Rebel (New York: Viking, 1972), p. 95.
~ P. Frank, Einstein, Sein Leben and seine Zeit (Muncher: Paul List Verlag, 1949),
p. 335.

ALB ER T EI NSTEI N
103
June 23, 1902 to July 6, 1909. Every morning he faced his
quota of patent applications. Those were the days when a
patent application had to be accompanied by a working
model. Over and above the applications and the models was
the boss, a kind man, a strict man, and a wise man. He gave
strict instructions: explain very briefly, if possible in a single
sentence, why the device will work or why it won't; why the
application should be granted or why it should be denied.
Day after day Einstein had to distill the central lesson out of
objects of the greatest variety that man has power to invent.
Who knows a more marvelous way to acquire a sense of what
physics is and how it works? It is no wonder that Einstein
always delighted in the machinery of the physical
world from the action of a compass needle to the meander-
ing of a river, and from the perversities of a gyroscope to the
drive of FIettner's rotor ship.
Whoever asks how Einstein won his unsurpassed power of
expression, let him turn back to the days in the patent office
and the boss who, "More severe than my father . . . taught me
to express myself correctly."* The writings of Galileo are
studied in secondary schools in Italy today, not for their
physics, but for their clarity and power of expression. Let the
secondary school student of our day take up the writings of
Einstein if he would see how to make in the pithiest way a
telling point.
From Bern, fate took Einstein to Zurich, to Prague, and
then to the Berlin where his genius flowered. Colleagueship
never meant more in his life than it did during his 19 years
there, and never did he have greater colleagues: Max Planck,
James Franck, Walter Nernst, Max von Laue, and others.
Colleagueship did not mean chat; it meant serious consulta-
*"Errinerungen an Albert Einstein, 1902-1909," Bureau Federal de la Propriete
Intellectuelle (Berne, Switzerland), as quoted in: R. W. Clark, Einstein, The Life and
Times (New York: The World Publishing Co., 1971), p. 75.

104
BIOGRAPHICAL MEMOIRS
tion on troubling issues. No tool of colleagueship was more
useful than the seminar. James Franck explained to me the
democracy of this trial by jury. The professor, he empha-
size(l, stood on no pinnacle, beyond question by any student.
On the contrary, the student hac! both the right ant! the
obligation to question anti to speak up.
If the writing of letters is a test of colleagueship, let no one
question Einstein's power to give and to receive. Consider his
enormous correspondence. Look at the postcards he sent
over the years to the closest in spirit of all his colleagues, Paul
Ehrenfest in Leyden. They clear with the issues nearest to his
heart at the moment, whether the direction of time in statis-
tical mechanics, or quantum fluctuations in radiation, or a
problem of general relativity. Or examine his correspon-
clence with Max Born, or Maurice Solovine, or with everyday
people. To a schoolgirl who mentioned among many other
things her problems with mathematics, he replied, "Do not
worry about your difficulties in mathematics; ~ can assure
you that mine are greater." * Why did Einstein correspond so
much with people that you ant! ~ would call outsiders? Did he
not fee} that the amateur brings a freshness of outlook un-
matchec! by the specialist with his narrow view?
The benefits of colleagueship with Einstein ~ experienced
more than once, but never with greater immediate benefit
than in statistical mechanics. In a discussion of radiation
(ramping, he referred me to a published dialogue of 1909
between himself ant! Walter Ritz. The two men agreed to
disagree ant! stated their opposing positions in this single
clear sentence: "Ritz treats the limitations to retarded poten-
tials as one of the foundations of the second law of thermody-
namics, while Einstein believes that the irreversibility of radi-
ation clepends exclusively on considerations of probability."
* H. Dukas and B. Hoffmann, eds., Albert Einstein; The Human Side: New Glimpses
from His Archives (Princeton, Ad.: Princeton Univ. Press, 1979), p. 8.
tA. Einstein and W. Ritz, Physikalisches Zeitschrift, 10 (1909): 323-34.

ALB ER r E I NSrrE I N
105
In accord with the position of Einstein, Richard Feynman
and ~ found that the one-sideciness in time of radiation reac-
tion can be understood as originating in the one-sicledness in
time of the conditions imposed on the far-away absorber
particles, and not at all in the elementary law of interaction
between particle and particle. ~ joiner! the ranks of what ~ can
only call "the worriers"those like Boltzman, Ehrenfest, and
Einstein himself, and many, many otherswho ask, why
initial conditions? Why not final conditions? Or why not some
mixture of the two? And most of all, why thus and such initial
conditions and no other? No one who knows of Einstein's
lifelong concern with such issues can fad! to have a new sense
of appreciation on reading his great early papers on statistical
mechanics, and not least among them the famous 1905 paper
on the theory of the Brownian motion. Surely the perspective
he won from these worries will someday help show us the way
to Everest.
Best known of Einstein's great trio of ~ 905 papers,
however, is that on special relativity. "Henceforth," as
Minkowski put the lesson of Einstein, "space by itself and
time by itself, are doomed to fade away into mere shadows,
ant! only a kink} of union of the two will preserve an in`depen-
dent reality." * Historians of science can tell us that if Einstein
had not come to this version of spacetime it would have been
achieved by Lorentz, or Poincare, or another, who would also
have come eventually to that famous equation E = mc2, with
all its consequences. But it still comes to us as a miracle that
the patent office clerk was the one to clecluce this greatest of
lessons about spacetime from clues on the surface so innocent
as those afforded by electricity and magnetism. Miracle?
Would it not have been a greater miracle if anyone but a
patent office clerk had discoverecl relativity? Who else conic!
have distilled this simple central point from all the clutter of
*C. Reid,Hilbert (Berlin: Springer, 1970), p. 12.

106
BIOGRAPHICAL MEMOIRS
electromagnetism than someone whose job it was over and
over each day to extract simplicity out of complexity?
If others could have given us special relativity, who else
but Einstein, sixty-four years ago, could have given us gen-
eral relativity? Who else knew out of the welter of facts to
fasten on that which is absolutely central? Dict the central
point come to him, as legend has it, from talking to a house-
painter who tract fallen off a roof and reporter! feeling
weightless cluring the fail? We all know that he caller! that
1908 insight the "happiest thought of my life"* the idea
that there is no such thing as gravitation, only free-fall. By
thus giving up gravitation, Einstein won back gravitation as a
manifestation of a warp in the geometry of space. His 1915
and still standard geometric theory of gravitation can be sum-
marized, we know toclay, in a single, simple sentence: "Space
tells matter how to move and matter tells space how to
curve." ~ Through his insight that there is no such thing as
gravity, he had had the creative imagination to bring together
two great currents of thought out of the past. Riemann tract
stresses! that geometry is not a God-given perfection, but a
part of physics; ant! Mach had argued that acceleration
makes no sense except with respect to frame determinec! by
the other masses in the universe.
It is unnecessary to recall the three famous early tests of
Einstein's geometric theory of gravitation: the bending of
light by the sun, the re(l-shift of light from the sun, and the
precession of the orbit of the planet Mercury going around
the sun. Neither is it necessary to expound! the important
insights that have come and continue to come out of general
relativity. Einstein showed that the law for the motion of a
mass in space ant! time floes not have to be made a separate
* A. Einstein, "The Fundamental Idea of General Relativity in Its Original Form,"
unpublished essay, 1919 (excerpts, New York Times, 28 March 1972), p. L.32.
Hi. A. Wheeler, University of Texas, lecture of 2 March 1979.

ALB ER'r EI NS'PEI N
107
item in the conceptual structure of physics. Instead, it comes
straight out of geometric law as applied to the space immecii-
ately surrounding the mass in question. Moreover, the geom-
etry that he had freecT from slavery to Euclid, and that he had
assigned to carry gravitation force, could throw off its chains,
become a free agent, and, under the name of "gravitational
radiation," carry energy from place to place over and above
any energy carried by electromagnetic waves~an effect for
which Joseph H. Taylor, L. A. Fowler, P. M. McCulloch, and
their Arecibo Observatory colleagues in December 1978 an-
nounced impressive evidence.*
One does not need to go into the theory of gravitationally
collapsed objects or the evidence we have today, some im-
pressive, some less convincing, for black holes: one of some
ten solar masses in the constellation Cygnus; others in the
range of a huncired or a thousand! solar masses at the centers
of five of the star clusters in our galaxy; one about four
million times as massive as the sun at the center of the Milky
Way; and one with a mass of about five billion suns in the
center of the galaxy M87.
The collapse at the center of a black hole marks a third
"gate of time," ~ additional to the big bang and the big crunch.
Einstein tried to escape all three. two years after general
relativity, Einstein was already applying it to cosmology. He
gave reasons to regard the universe as closed and qualita-
tively similar to a three sphere, the three-climensional gen-
eralization of the surface of a rubber balloon. To his surprise,
he found that the universe is dynamic anc! not static.
Einstein couIcl not accept this result. First, he found fault
*L. A. Fowler, P. M. McCulloch, Andes. H. 'Faylor, "Measurement of General
Relativistic Effects in the Binary Pulsar PSR 1913 + 16," Nature, 277 (8 February
1979) 437~0.
A. A. Wheeler, "Genesis and Observership," in Foundational Problems in the Special
Sciences, ed. R. E. Butts and K. J. Hintikka (Reidel: Dordrecht, 1977), p. 11.

108
BIOGRAPHICAL MEMOIRS
with Alexancler Friecimann's mathematics. Then he retracted
this criticism, and looked for the fault in his own theory of
gravitation. It turned out there was no natural way to change
that theory. The arguments of simplicity and correspon-
dence in the appropriate limit with the Newtonian theory of
gravitation left no alternative. There being no natural way to
change the theory, he looked for the least unnatural way he
could finch to alter it. He introduced a so-called! "cosmological
term" with the sole point and purpose to hold the universe
static. A decacle later, Edwin Hubble, working at Mount Wil-
son Observatory, gave convincing evidence that the universe
is actually expanding. Thereafter, Einstein remarked that the
cosmological term "was the biggest blunder of my life."*
Today, looking back, we can forgive him his blunder and give
him the credit for the theory of gravitation that predicted the
expansion. Of all the great predictions that science has ever
made over the centuries, each of us has his own list of spectac-
ulars, but among them all was there ever one greater than
this, to predict, ant! predict correctly, and predict against all
expectation, a phenomenon so fantastic as the expansion of
the universe? When did nature ever grant man greater en-
couragement to believe he will someday understand! the mys-
tery of existence?
Why did Einstein in the beginning reject his own greatest
discovery? Why clid he fee! that the universe should go on
from everlasting to everlasting, when to all brought up in the
Judeo-Christian tradition an original creation is the natural
concept? ~ am indebted to Professor Hans Kung for suggest-
ing an important influence on Einstein from his hero Spi-
noza. Why was twenty-four-year-old Spinoza excommuni-
cate<1 in 1656 from the synagogue in Amsterdam? Because he
cleniec! the doctrine of an original creation. What was the
* G. Gamow, My World Line (New York: Viking, 1970), p. 44.

ALB ER r EI NS rEI N
109
clifficulty with that doctrine? In all that nothingness before
creation where could that clock sit that should tell the uni-
verse when to come into being!
Today we have a little less difficulty with this point. We do
not escape by saying that the universe goes through cycle
after cycle of big bang and collapse, worI(1 without encl.
There is not the slightest warrant in general relativity for
such a way of speaking. On the contrary, it provides no place
whatsoever for a before before the big bang or an after after
the big crunch. Quantum theory goes further. It tells us that
however permissible it is to speak about space, it is not per-
missible to speak in other than approximate terms of space-
time. To cto so would violate the uncertainty principle as
that principle applies to the dynamics of geometry. No, when
it comes to small distances either in the here and the now or
in the most extreme stages of gravitational collapse, space-
time loses all meaning, and time itself is not an ultimate
category in the description of nature. No one who wrestles
with the three gates of time, our greatest heritage of
parallax and of promise from general relativity can
escape the all-pervasive influence of the quantum.
Spinoza's influence on his thinking about cosmology Ein-
stein couIc} shake off but not Spinoza's deterministic out-
look. Proposition XXIX in The Ethics of Spinoza states:
"Nothing in the universe is contingent, but all things are
conditioned to exist and operate in a particular manner by
the necessity of divine nature."* Einstein accepted deter-
minism in his mincI, his heart, his very bones.
Who then was first clearly to recognize that the real world,
and the world of the quantum, is a world of chance and
unpredictability? Einstein himself!
Why clid Einstein, who in the beginning with Max Planck
* B. Spinoza, Die Ethik, Part One, Proposition XXIX (Hamburg: F. Meiner, 1955).

0
BIOGRAPHICAL MEMOIRS
and Niels Bohr hac! done so much to give quantum physics to
the world, in the enc! stand out so strongly anct so lonesomely
against the central point? What other explanation is there
than this "set" he hacl receiver! from Spinoza?
The early quantum work of Bohr and Einstein is almost
a duet. Einstein, 1905: The energy of light is carried from
place to place as quanta of energy, accidental in time and
space in their arrival. Bohr, 1913: The atom is characterized
by stationary states, and the difference in energy between one
and another is given off in a light quantum. Einstein, 1916:
The processes of light emission and light absorption are gov-
erned by the laws of chance, but satisfy the principle of
detailed balance. Bohr, 1927: Complementarity prevents a
detailed description in space and time of what goes on in the
act of emission. Here Bohr and Einstein partect company.
Einstein spoke against Einstein. The Einstein who in 1915
saict there was no escape from the laws of chance was insisting
by 1916, as he die! all the rest of his life, against the evidence
and against the views of his greatest colleagues, that "God
does not Eplay] (lice." *
If an army is being defeated it can still, by a sufficiently
skillful rear-guard action, have an important influence on the
outcome. No one who in all the great history of the quantum
contested with Niels Bohr did more to sharpen and
strengthen Bohr's position than Einstein. Never in recent
centuries was there a clialogue between two greater men over
a longer period on a deeper issue at a higher level of col-
leagueship, nor a nobler theme for playwright, poet. or artist.
From their earliest encounter, Einstein liked Bohr, writing
him on May 2, 1920, "l am studying your great works and
when ~ get stuck anywhere now have the pleasure of seeing
your friendly young face before me smiling and exolain-
*A. Einstein, Albert Einstein and Max Born, Brzefwechsel, 1916-1955, Kommentiert von
Max Born (Muncher: Nymphenburg, 1969), pp. 129-30.

ALB ER T EI NSTEI N
111
ing."* Bohr viewed Einstein with admiration ant! warm re-
garcI. Let him who wit! react Bohr's account of the famous
dialogue, even today unsurpassed for its comprehensive ar-
ticulation of the central issues. Who knows what the quantum
means who does not know the frienctly but deadly serious
battles fought and won on the double-slit experiment, on the
possibilities for weighing a photon, on the Einstein-Podolsky-
Rosen experiment, and on the danger associates! with
unguarcled use of the word "reality"? To help to clarify the
issues brought up in the later years of the great dialogue,
Bohr fount! himself forced to introduce the wore! "phenom-
enon" ~ to describe an elementary quantum process "brought
to a close by an irreversible act of amplification." ~ Thanks to
that word, brought in to withstand the criticism of Einstein,
we have learned in our own time to state the central lesson of
the quantum in a single simple sentence, "No elementary
phenomenon is a phenomenon until it is an observed phe-
nomenon." §
How couIct the correctness of quantum theory be by now
so widely accepted, ant! its decisive point so well perceived, if
there had been no great figure, no Einstein, to (lraw the
embers of unease together in a single flame and thereby drive
Bohr to that fuller formulation of the central lesson which he
at last achieved?
If the quantum and the gates of time are the strongest
features of this strange universe, and if they shall prove in
time to come the doorways to that creeper view for which
*Letter to N. Bohr, 2 May 1920.
t N. Bohr, "Discussion with Einstein on Epistemological Problems in Atomic Phys-
ics," in Einstein: Philosopher-Scientist, ed. P. A. Schilpp (Evanston, Ill.: Library of
Living Philosophers, 1949), p. 238.
N. Bohr, Atomic Physics and Human Knowledge (New York: Wiley, 1958), p. 73, 88.
§ I. A. Wheeler, "Frontiers of Time," in Rendicotti delta Scuola Internazionale di
Fzsica "Enrico Fermi," LXXII Corso, Problems in the Foundations of Physics, ed. N.
Toraldo di Francia and Bas van Fraassen (Amsterdam: North-Holland, 1979), pp.
395-497.

112 BIOGRAPHICAL MEMOIRS
Einstein searched, mankind will forever remember with
gratitude his absolutely decisive involvement with both.
No one who is a professor and receives his support from
the larger community can rightly be unmindful of his obliga-
tions to it. He must speak to the higher values of all insofar
as he is qualifies! ant} able to do so. Burden though it was for
Einstein to take on this extra duty, he diet it to the best of his
ability. What he defender! were no whims, no lightly held
fancies, but goals he held and deeply desired for the worIcl.
If in this undertaking he had some of the character of an OIc!
Testament prophet, he also had all of the eloquence. State-
ments from Einstein creates! an audience, ant! the audience
creates! the pressure for more statements. What is long, Ein-
stein felt, is lost. Pith and pungency were the points of his
pronouncements. Who does.not know the causes for which
he stood! Whoever admires greatness, let him read Einstein's
words about the goals and the greatness of recently cleparted
colleagues, as well as heroes out of the (leeper past. For social
justice and social responsibility, Einstein spoke up time ant!
again: "A hundred times every (lay ~ remind myself that my
inner and outer life are based on the labors of other men,
living and deact, and that ~ must exert myself in order to give
in the same measure as ~ have received and am still receiv-
ing." * He stresses! the necessity of a political system that floes
not rely on coercion if people are to contribute all that lies in
them to achieve.
He expressed admiration for the system of social care,
going back to Bismarck, that makes provision for the indi-
vidual in case of illness or need. Living through the tragedy
of two worIcl wars, he protested many times about the waste-
fuIness of war: lives lost, hatred engendered, and values per-
* A. Einstein, Mein Weltbild, trans. A. Harris, in The World As I See It (New York:
Philosophical Library, 1949), p. 90.

ALBER r EINSTEIN 113
vertex; but when it came to a choice between war or freedom
ant} justice, he spoke for freedom and justice. He refused the
invitation to become the first president of Israel, but he
worked after that declination as effectively as before for the
welfare of a unique community, remarking, "The pursuit of
knowledge for its own sake, an almost fanatical love of justice
and the desire for personal independence these are the
features of the Jewish tradition which make me thank my
stars that ~ belong to it." *
Things clid not go in the world as Einstein had hoped.
Things did not go in physics as he hac! clesirecI. Determinism
stood in ruins. His search for a unified geometric theory of
all the forces of nature came to nothing though today, with
a new an(1 wider concept of what geometry is, in the sense of
a so-calle(1 "gauge theory," marvelous new progress is now
being maple toward his dream of unification. He left us in
general relativity with an ideal for a physical theory that has
never been surpassed. He showed a unique talent for finding
the central point in every subject to which his philosophical
antecedents gave right of entry. He (lid as much as any man
who ever lived to make us face up to the central mysteries of
this strange world.
Einstein worked with all his force to the very end. In his
last days he hac] a tired face. Everything that he hac! to give
he hac! given for his causes, and among them that greatest of
causes, the goal toward which he had climbed so high, that
snowy peak whose light today shines brighter than ever: "A
completely harmonious account of existence." ~
As we look up at the (listant intervening craggy slope, we
are amazed suddenly to make out the faint sound of a high
far-off violin. Then out of the valley behind and below us
*Ibid., p. I.
TA. Einstein, Essays in Science (New York: Philosophical Library, 1934), p. 114.

4
B I OGRA P H I C AL M E M O I RS
comes an answering burst of song, young voices all. They
chorus of the loftiness of the peak, the cianger of the climb,
and the greatness of the climber, the man of peace with the
white hair. He no longer belongs to any one country, any one
group, any one age, we hear them singing, but to all friends
of the future. Least of all, they tell us, does Einstein anymore
belong to Einstein. He belongs to the worm.

ALB ERT EI N STE I N
BIBLIOGRAPHY
115
A Bibliographical Checklist and Index, compiled by Nell Bonie, Mo-
nique Russ, and Dan H. Lawrence. New York: Readex Micro-
print Corp., 1960. 34 pp.
This bibliography has been emended and updated by Helen Dukas as part
of the not yet published work~of the ongoing Einstein papers project at the
Institute for Advanced Study, Princeton, New Jersey, 08540. The 34-page
length of this bibliography and its availability in leading libraries makes it
appropriate, in the case of Einstein, to replace the bibliography customarily
at the end of the usual memorial by a list of some of the more important
writings about him. Princeton University Press, on February 22, 1971,
signed an agreement with the Estate of Albert Einstein, Otto Nathan and
Helen Dukas, trustees, for the preparation of an authorized annotated
scholarly edition of the papers of Albert Einstein, the preparation of which
is, however, expected to require some years. In the meantime, reference
can be made to the unauthorized Russian four-volume series, Sobranie
Nauchuykh Trudov.
Einstein, The Life and Times, by Ronald W. Clarke. New York: The
World Publishing Co., 1971. xv + 719, with index.
This is a convenient reference for one seeking a year-to-year chronology
of the events, great and small, in Einstein's life.
Albert Einstein; the Human Side: Nero Glimpses from has Archives, trans-
lated and edited by Banesh Hoffmann and Helen Dukas.
Princeton Univ. Press, 1979. 167 pp.
Contains many hitherto unpublished letters that Einstein, in reply to every-
day people, wrote with no thought of publication in mind. They illuminate
the wider outlooks and concerns of Einstein, the man.
Albert Einstein, Creator and Rebel, by Banesh Hoffmann with the
collaboration of Helen Dukas. New York: Viking, 1972.
xv + 272, with index.
This is a brief biography by one who worked with him as an assistant in
1936 and 1937, who understands and describes Einstein's achievements in
clear, simple terms.

116
BIOGRAPHICAL MEMOIRS
Einstein, His Life and Times, by Philipp Frank, translated from a
German manuscript by George Rosen, edited and revised by
Shuichi Kusaka. New York: Alfred Knopf, 1947. xxiii+298,
with index.
This is written by one who knew Einstein well, in 1912 became Einstein's
successor as professor of theoretical physics at the University of Prague,
and kept contact after he became professor of physics at Harvard Univer-
sity in 1940.
Albert Einstein: Philosopher-Scientist, edited by Paul Arthur Schilpp.
Evanston, Ill.: Library of Living Philosophers, 1949. xvi + 781,
with index, subsequently made available in a paperback edition
by Schilpp.
This book begins with "Autobiographical Notes" by Einstein himself in
facing pages of English and German. It tells much about the motivations
of childhood and youth, as well as later years. It contains commentaries on
Einstein's work by such colleagues as Arnold Sommerfeld, Louis de Brog-
lie, H. P. Robertson, Wolfgang Pauli, Max Born, Max van Lane and Kurt
Godel. Niels Bohr's contribution, "Discussion with Einstein on Epistemo-
logical Problems in Atomic Physics," is a so far unrivaled account not only
of the great dialogue, but also of the role of measurement in quantum
mechanics. More on the dialogue will be found in The Philosophy of Quantum
Mechanics by Max Jammer (John Wiley, New York, 1974, xii + 536), espe-
cially chapter 5, "The Bohr-Einstein Debate."
Einstein, by Jeremy Bernstein, edited by Frank Kermode. New
York: Viking, 1973. xii + 241. Appeared originally in the pages
of The New Yorker.
Albert Einstein, by Carl Seelig. Munchen, Germany: Europa Verlag,
1960.446 pp.
Described by Thomas Mann, Einstein's Princeton neighbor during
World War II, as "an important contribution to the biography of a world
genius on whose shadowy [tastende] beginning he throws new light."
Einstein~etters a Maurice Solovine. Paris: Gauthier-Villars, 1956.
140 pp.
Maurice Solovine was a close friend of Einstein in his early scientific life.

ALE ER r EI NS~rEI N
117
Letters on Wave Mechanics: Schrodinger, Planck, Einstein, Lorentz,
edited by K. Przibram, translation and introduction by Martin I.
Klein. New York: Philosophical Library, 1967. xv + 75.
Contains, on pages 23~0, the Einstein-Schrodinger correspondence deal-
ing with the issues raised by quantum mechanics about the nature of
"reality."
Einstein to Ehrenfest Postcards, sent over the years 1915 to 1933 to
Einstein's closest scientific colleague, and given by Mrs. Ehren-
fest to John Archibald Wheeler, September, 1956, and depos-
ited by him in the Einstein Archives like many other Einstein
writings, to wait for the definitive publication of his works to see
the light of day.
Albert Einstein Arnold Sommerfeld Briefwechsel, von Armin Hermann
herausgegeben und kommentiert. Basel, Germany: Schwabe,
1978. 126 pp.
Correspondence ( 1912 to 1949) between two outstanding, but very
different physicists, beginning with relativity, but then turning to quantum
theory and mirroring the physics of the times.
Allbert Einstein Hedwig and Max Born, Briefwechsel, 1916-1955,
kommentiert von Max Born, Geleitwort von Bertrand Russell,
Vorwort von Werner Heisenberg. Munchen: Nymphenburger
Verlagshandlung, 1969, 330 pages; translated by Irene Born as
The Born-Einstein Letters: the Correspondence Between Albert Einstein
and Max and Hedwig Born, 1916-1955, (New York: Walker,
1971, xi + 240).
Deals with issues human as well as scientific. C. P. Snow remarked of this
book in the Financial Times of London, "nothing I have said ought to
prevent anyone, however illiterate scientifically, from getting hold of these
Born-Einstein letters .... there is nothing quite like this correspondence
of theirs."

Biographic Memoirs Volume 51 contains the biographies of deceased members of the National Academy of Sciences and bibliographies of their published works. Each biographical essay was written by a member of the Academy familiar with the professional career of the deceased. For historical and bibliographical purposes, these volumes are worth returning to time and again.

Welcome to OpenBook!

You're looking at OpenBook, NAP.edu's online reading room since 1999. Based on feedback from you, our users, we've made some improvements that make it easier than ever to read thousands of publications on our website.